a Dipartimento di Farmacia , Università di Pisa , Pisa , Italy.
Expert Opin Ther Pat. 2019 Mar;29(3):199-213. doi: 10.1080/13543776.2019.1582646. Epub 2019 Feb 27.
Aldose reductase (ALR2) is both the key enzyme of the polyol pathway, whose activation under hyperglycemic conditions leads to the development of chronic diabetic complications, and the crucial promoter of inflammatory and cytotoxic conditions, even under a normoglycemic status. Accordingly, it represents an excellent drug target and a huge effort is being done to disclose novel compounds able to inhibit it.
This literature survey summarizes patents and patent applications published over the last 5 years and filed for natural, semi-synthetic and synthetic ALR2 inhibitors. Compounds described have been discussed and analyzed from both chemical and functional angles.
Several ALR2 inhibitors with a promising pre-clinical ability to address diabetic complications and inflammatory diseases are being developed during the observed timeframe. Natural compounds and plant extracts are the prevalent ones, thus confirming the use of phytopharmaceuticals as an increasingly pursued therapeutic trend also in the ALR2 inhibitors field. Intriguing hints may be taken from synthetic derivatives, the most significant ones being represented by the differential inhibitors ARDIs. Differently from classical ARIs, these compounds should fire up the therapeutic efficacy of the class while minimizing its side effects, thus overcoming the existing limits of this kind of inhibitors.
醛糖还原酶(ALR2)既是多元醇途径的关键酶,在高血糖条件下其激活会导致慢性糖尿病并发症的发展,也是炎症和细胞毒性条件的关键促进剂,即使在正常血糖状态下也是如此。因此,它是一个极好的药物靶点,人们正在努力开发能够抑制它的新型化合物。
本文献综述总结了过去 5 年发布的专利和专利申请,以及针对天然、半合成和合成 ALR2 抑制剂的专利申请。从化学和功能角度对所描述的化合物进行了讨论和分析。
在观察期间,有几种具有治疗糖尿病并发症和炎症疾病的有希望的临床前能力的 ALR2 抑制剂正在被开发。天然化合物和植物提取物是最常见的,这证实了植物药物的使用作为一种治疗趋势在 ALR2 抑制剂领域也在不断得到追求。从合成衍生物中可以得到有趣的启示,其中最显著的是差异化抑制剂 ARDIs。与经典的 ARIs 不同,这些化合物在最小化其副作用的同时,应该能够提高该类药物的治疗效果,从而克服这类抑制剂目前存在的局限性。
